Physiological and morphological plasticity in response to nitrogen availability of a yeast widely distributed in the open ocean
Physiological and morphological plasticity in response to nitrogen availability of a yeast widely distributed in the open ocean
Yeasts are prevalent in the open ocean, yet we have limited understanding of their ecophysiological adaptations, including their response to nitrogen availability, which can have a major role in determining the ecological potential of other planktonic microbes. In this study, we characterized the nitrogen uptake capabilities and growth responses of marine-occurring yeasts. Yeast isolates from the North Atlantic Ocean were screened for growth on diverse nitrogen substrates, and across a concentration gradient of three environmentally relevant nitrogen substrates: nitrate, ammonium, and urea. Three strains grew with enriched nitrate while two did not, demonstrating that nitrate utilization is present but not universal in marine yeasts, consistent with existing knowledge of nonmarine yeast strains. Naganishia diffluens MBA_F0213 modified the key functional trait of cell size in response to nitrogen concentration, suggesting yeast cell morphology changes along chemical gradients in the marine environment. Meta-analysis of the reference DNA barcode in public databases revealed that the genus Naganishia has a global ocean distribution, strengthening the environmental applicability of the culture-based observations. This study provides novel quantitative understanding of the ecophysiological and morphological responses of marine-derived yeasts to variable nitrogen availability in vitro, providing insight into the functional ecology of yeasts within pelagic open ocean environments.
functional traits, marine fungi, marine yeast, nitrogen, plankton ecology
Diver, Poppy
7b3f4859-ee4a-4dda-8fdd-e96120afcf6d
Ward, Ben A.
9063af30-e344-4626-9470-8db7c1543d05
Cunliffe, Michael
e6498f5a-80c4-43f5-9cc0-f4a781d32ba9
1 May 2024
Diver, Poppy
7b3f4859-ee4a-4dda-8fdd-e96120afcf6d
Ward, Ben A.
9063af30-e344-4626-9470-8db7c1543d05
Cunliffe, Michael
e6498f5a-80c4-43f5-9cc0-f4a781d32ba9
Diver, Poppy, Ward, Ben A. and Cunliffe, Michael
(2024)
Physiological and morphological plasticity in response to nitrogen availability of a yeast widely distributed in the open ocean.
FEMS Microbiology Ecology, 100 (5), [fiae053].
(doi:10.1093/femsec/fiae053).
Abstract
Yeasts are prevalent in the open ocean, yet we have limited understanding of their ecophysiological adaptations, including their response to nitrogen availability, which can have a major role in determining the ecological potential of other planktonic microbes. In this study, we characterized the nitrogen uptake capabilities and growth responses of marine-occurring yeasts. Yeast isolates from the North Atlantic Ocean were screened for growth on diverse nitrogen substrates, and across a concentration gradient of three environmentally relevant nitrogen substrates: nitrate, ammonium, and urea. Three strains grew with enriched nitrate while two did not, demonstrating that nitrate utilization is present but not universal in marine yeasts, consistent with existing knowledge of nonmarine yeast strains. Naganishia diffluens MBA_F0213 modified the key functional trait of cell size in response to nitrogen concentration, suggesting yeast cell morphology changes along chemical gradients in the marine environment. Meta-analysis of the reference DNA barcode in public databases revealed that the genus Naganishia has a global ocean distribution, strengthening the environmental applicability of the culture-based observations. This study provides novel quantitative understanding of the ecophysiological and morphological responses of marine-derived yeasts to variable nitrogen availability in vitro, providing insight into the functional ecology of yeasts within pelagic open ocean environments.
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fiae053
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Accepted/In Press date: 9 April 2024
e-pub ahead of print date: 10 April 2024
Published date: 1 May 2024
Keywords:
functional traits, marine fungi, marine yeast, nitrogen, plankton ecology
Identifiers
Local EPrints ID: 493918
URI: http://eprints.soton.ac.uk/id/eprint/493918
ISSN: 0168-6496
PURE UUID: 121ea4a0-35d1-4768-9912-1861e576f383
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Date deposited: 17 Sep 2024 16:57
Last modified: 17 Sep 2024 16:57
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Author:
Poppy Diver
Author:
Michael Cunliffe
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